摘要
“双碳”目标的实施加速了能源结构的深刻转型,大规模清洁能源的开发利用已成为全球的基本共识。为解决清洁能源利用的随机性、间歇性及难以预测性难题,并将刚性的能源需求变得柔性,储能被认为是目前较好解决措施。飞轮储能配合清洁能源发电组成“新能源+储能”,将会在新型储能方式上占据重要地位。建立了飞轮储能系统基本模型,采用六相永磁同步电机作为系统的驱动电机,仿真表明所提控制策略合理有效。
The implementation of the national"dual carbon"goal has accelerated the profound transformation of the energy structure,and the development and utilization of large-scale clean energy has become a basic consensus around the world.In order to solve the randomness,intermittency and unpredictability of clean energy utilization and make rigid energy demand flexible,energy storage is considered to be the best solution at present.Flywheel energy storage combined with clean energy power generation to form"new energy+energy storage"will occupy an important position in new energy storage methods.The article establishes a basic model of the flywheel energy storage system and uses a six-phase permanent magnet synchronous motor as the drive motor of the system.The simulation shows that the proposed control strategy is reasonable and effective.
作者
周桐
ZHOU Tong(Tongliao Huolinhekengkou Power Generation Co.,Ltd.,Tongliao 029200,China)
出处
《电工技术》
2025年第S1期415-416,419,共3页
Electric Engineering
关键词
飞轮储能
永磁同步电机
充放电控制
flywheel energy storage
permanent magnet synchronous motor
charge and discharge control
